@PART[InflatableHeatShield]:FOR[DeadlyReentry]
{
	@mass = 0.66
	@heatConductivity = 0.001
	skinInternalConductionMult = 120
	@maxtemp = 1053
	%skinMaxTemp = 2120 // 1650 // BF-20 
	@thermalMassModifier = 1.0
	%skinThermalMassModifier = 1.4131
	%skinMassPerArea = 0.0514
	%emissiveConstant = 0.87
	%absorptiveConstant = 0.15
	leaveTemp = true

	MODULE
	{
        name = ModuleAeroReentry
		leaveTemp = true
	}
}
+PART[InflatableHeatShield]:AFTER[DeadlyReentry]
{
	@name = IRVE3
	@title = IRVE 3
	@description = Rescaled inflatable heatshield to 3 meters, to match the Inflatable Reentry Vehicle Experiment 3
	
	// IRVE-3 total entry mass was 281 kg. 
	//Aeroshell mass (6.5 torii + TPS covering) estimated at 35 kg 
	// Structural mass + inflation system estimated at 82 kg
	@mass = 0.11781
//	!MODEL,*{}
//	MODEL
//	{
//		model = Squad/Parts/Aero/InflatableHeatShield/HeatShield
//		scale = 0.3, 0.3, 0.3
//	}
	@rescaleFactor = 0.3
	@TechRequired = advLanding
}
+PART[InflatableHeatShield]:AFTER[DeadlyReentry]
{
	@name = InflatableHeatShield15m
	@rescaleFactor = 1.5
	//@node_stack_top = 0.0, -2.3, 0.0, 0.0, -1.0, 0.0, 2	
	@entryCost = 600
	@cost = 300
	@mass = 1.312
	//@category = Aero
	@title = Heat Shield (15m)
	@description = Based on the design of a child's toy, then crossed with a bouncy castle, this heat shield uses a set of inflatable rings covered with a thermal blanket to provide a generous 15 meter heat shield for reentry and decelleration.
	//maximum_drag = 0.1
	//minimum_drag = 0.1
	//angularDrag = 0.5
	//breakingForce = 2048
	//breakingTorque = 2048
	//@emissiveConstant = 0.9
	@CenterOfBuoyancy = 0.0, 3.75, 0.0
	@CenterOfDisplacement = 0.0, 3.45, 0.0
	@CoPOffset = 0, 3.75, 0
	@CoLOffset = 0, 1.5, 0
}